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The Effect of Microorganisms and Inorganic Preparations Applied into the Soil and Leaves on the Yield of Winter Rape (Brassica Napus L.)

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The research was carried out in 2018-2021 at the Agricultural Experimental Station, in Poland. The factors of the experiment were three morphotypes of winter oilseed rape: population morphotype, long-stemmed morphotype, semi-dwarf morphotype. The second factor of the experiment corresponded to three ways of using the preparations: 1. Control variant, 2. Organic preparation (Ugmax) 3. Biostimulator containing P2O5 and K2O, 4. Biostimulator containing silicon. The aim of the study was the reaction of three morphotypes of winter rape to soil and foliar application of microorganisms as well as inorganic preparations in different growing seasons. Elements of yield structure and yielding of winter rape were determined by a genetic factor. In all growing seasons, the best yielding was in the restored hybrid with the traditional type of growth, while the seed yield of the semi-dwarf form was lower by 5.8% on average, and by 10.0% on average in the population form. The number of seeds in the pod and the value of the yield index (HI) was the most favourable in the restored forms, and the thousand-seed weight and yield in the population form. The preparations applied to the soil and leaves increased the parameters of yield structure and yielding in all tested cultivars. Soil preparation with microorganisms as well as micro and macro elements applied in autumn before sowing seeds and in spring in the BBCH 21-36 phase significantly increased the number of seeds per pod by 3.4% on average; weight of a thousand seeds by 3.5% on average, seed yield by 15.7% on average, straw yield by 4.5% on average compared to the control variant. The ratio of seed yield-to-biomass yield was higher in the heterosis cultivars by an average of 9.2% compared to the population cultivar. The elements of the yield structure as well as the main and by-products were the highest in the growing season with the highest annual rainfall and the highest average air temperature.
Rocznik
Strony
27--36
Opis fizyczny
Bibliogr. 33 poz., rys., tab.
Twórcy
  • Department of Agriculture, Ignacy Mościcki University of Applied Sciences in Ciechanów, Ciechanów, ul. Narutowicza 9, 06-400 Ciechanów, Poland
  • Faculty of Agrobioengineering and Animal Husbandry, University of Natural Sciences and Humanities in Siedlce, ul. Prusa 14, 08-110 Siedlce, Poland
  • Faculty of Agrobioengineering and Animal Husbandry, University of Natural Sciences and Humanities in Siedlce, ul. Prusa 14, 08-110 Siedlce, Poland
  • Faculty of Agrobioengineering and Animal Husbandry, University of Natural Sciences and Humanities in Siedlce, ul. Prusa 14, 08-110 Siedlce, Poland
Bibliografia
  • 1. Abdulkhaleq D.A., Hama S.J., Ahmad, R.M., Ismael Tawfiq S. 2018. Response of some Rapeseed (Brassica napus L.) varieties to Zn fertilizer Under Dry-farming Conditions. Journal of Zankoi Sulaimani, Special Issue, 2nd Int. Conference of Agricultural Sciences, 143–155.
  • 2. Ahmad R., E.A., Waraich M.Y., Ashraf S., Ahmad and T. Aziz. 2014. Does nitrogen fertilization enhance drought tolerance in sunflower? A review. Journal of Plant Nutrition, 37(6): 942–963. https://doi.org/10.1080/01904167.2013.868480
  • 3. Amiri M., Shirani Rad A.H., Valadabadi A., Sayfzadeh S., Zakerin H. 2020. Response of rapeseed fatty acid composition to foliar application of humic acid under different plant densities. PlantSoil and Environment. 66, 303–308. https://doi.org/10.17221/220/2020-PSE
  • 4. Beres J., Becka D., Tomasek J., Vasak J., 2019. Effect of autumn nitrogen fertilization on winter oilseed rape growth and yield parameters. Plant Soil and Environment. 65, 435–441. https://doi.org/10.17221/444/2019-PSE
  • 5. Bujak H., Jedyński S., Kaczmarek J., Kotecki A., 2008. Ocena stabilności plonowania populacyjnych i mieszańcowych odmian rzepaku ozimego. Evaluation of yield stability of open-pollinated and hybrid cultivars of winter oilseed rape. Biuletyn IHAR 250, 261–271.
  • 6. Czarnik M., Jarecki W., Bobrecka-Jamro D., Jarecka A. 2015. Wpływ gęstości siewu oraz nawożenia dolistnego na plonowanie odmian rzepaku ozimego. The effects of sowing density and foliar feeding on yielding of winter oilseed rape cultivar. ROŚLINY OLEISTE - OILSEED CROPS 36, 60–68. https://doi.org 10.5604/12338273.1195339
  • 7. Crista F., Imbrea F., Radulov I., Bănățean D.I., Dragomirescu M., Lato A., Crista L. 2022. The impact of complex foliar fertilization on rapeseed cultivation. Journal of Pharmaceutical Negative Results, 13,9, 103–108.
  • 8. https://doi.org/10.47750/pnr.2022.13.S09.012
  • 9. Ganya S., Svotwa E., Katsaruware R.D. 2018. Performance of two rape (Brassica napus) cultivars under different fertilizer management levels in the smallholder sector of Zimbabwe. International Journal of Agronomy, 2351204, 1–7. https://doi.org/10.1155/2018/2351204
  • 10. Grzebisz W., Łukowiak R., Biber M., Przygocka-Cyna K. 2010. Effect of multi-micronutrient fertilizers applied to foliage on nutritional status of winter oilseed rape and development of yield forming elements. Journal of Elementology, 15 (3), 477–491.
  • 11. IUSS Working Group WRB. (2015). World Reference Base for Soil Resources 2014, update 2015 International soil classification system for naming soils and creating legends for soil maps. World Soil Resources Reports No. 106. FAO, Rome.
  • 12. Jankowski K.J., Hulanicki P.S., Krzebietke S., Żarczyński P., Hulanicki P., Sokólski M. 2016a. Yield and quality of winter oilseed rape in response to different systems of foliar fertilization, Journal of Elementology, 21(4), 1017–1027. https://doi.org/10.5601/ jelem.2016.21.1.1108
  • 13. Jankowski K.J., Sokólski M., Dubis B., Krzebietke S., Żarczyński P., Hulanicki Hulanicki P.S. 2016b. Yield and quality of winter oilseed rape (Brassica napus L.) seeds in response to foliar application of boron. Agricultural and Food Science, 25,3 164–176. https://doi.org/10.23986/afsci.57413
  • 14. Jankowski K.J., Budzyński W.S., Załuski D., Hulanicki P.S., Dubis B. 2016c. Using a fractional factorial design to evaluate the effect of the intensity of agronomic practices on the yield of different winter oilseed rape morphotypes. Field Crops Research, 188, 50‒61. https://doi.org/10.1016/j.fcr.2016.01.007
  • 15. Jankowski K.J, Sokólski M., Szatkowski A. 2019. The Effect of Autumn Foliar Fertilization on the Yield and Quality of Winter Oilseed Rape Seeds, Agronomy 9, 12, 849. https://doi.org/10.3390/agronomy9120849
  • 16. Jarecki W., Bobrecka-Jamro D. 2008. Reakcja rzepaku ozimego na dolistne dokarmianie. Reaction of winter rape to the extra feeding of its leaves. Annales UMCS, Sec. E, 63, 2, 86–96.
  • 17. Jarecki W., Buczek J., Bobrecka-Jamro D. 2019. The response of winter oilseed rape to diverse foliar fertilization. Plant, Soil and Environment, 65, 125–130. https://doi.10.17221/5/2019-PSE
  • 18. Jarecki W. 2021. Wielkość i jakość plonu nasion rzepaku ozimego w zależności od typu odmiany. The size and quality of winter rape seed yield depending on the cultivar type. Agronomy Science, LXXVI (3), 5–14. http://doi.org/10.24326/as.2021.3.1
  • 19. Jarecki W., Skrobacz K., Lachowski T. 2022. Wpływ nawożenia dolistnego na plonowanie i skład chemiczny nasion rzepaku ozimego (Brassica napus L.). Effect of foliar fertilization on the yield and chemical composition of winter oilseed rape (Brassica napus L.) seeds, Agronomy Science, 77, 4, 49–59. http://doi.10.24326/as.2022.4.4
  • 20. Karim F., Iqbal J., Shabbir M., Kaleem S., Waqar M.Q. 2016. Response of cotton to foliar and soil applied nutrients under Dera Ghazi Khan conditions. Journal of Environmental and Agricultural Sciences, 7, 14–18.
  • 21. Kaur M., Kumar S., Kaur A. 2019. Effect of foliar application of nitrogen, phosphorus and sulphur on growth and yield of Gobhi Sarson (Brassica napus L.) in central Punjab. Journal of Oilseed Brassica, 10(1), 47–50.
  • 22. Kolarić L., Popović V., Živanović L., Ljubičić N., Stevanović P., Šarčević Todosijević Lj, Simić D., Ikanović J. 2021. Buckwheat yield traits response as influenced by row spacing, nitrogen, phosphorus, and potassium management. Agronomy 11, 2371. https://doi.org/10.3390/agronomy11122371
  • 23. Nawaz F., Ahmad R., Ashraf M.Y., Waraich E.A., Khan S.Z. 2015. Effect of selenium foliar spray on physiological and biochemical processes and chemical constituents of wheat under drought stress. Ecotoxicology and Environmental Safety, 113, 191–200, https://doi.10.1016/j.ecoenv.2014.12.003
  • 24. Noreen S., Fatima Z., Ahmad S., Athar H.-u.-R., Ashraf M. 2018. Foliar Application of Micronutrients in Mitigating Abiotic Stress in Crop Plants. In: Hasanuzzaman, M., Fujita, M., Oku, H., Nahar, K., Hawrylak-Nowak, B. (Eds.), Plant Nutrients and Abiotic Stress Tolerance. Springer Singapore, Singapore, pp. 95-117. https://doi.org/10.1007/978-981-10-9044-8_3
  • 25. Oleksy A., Staroń J., Kołodziejczyk M., Kulig B., Brodowicz T. 2019. Wpływ dolistnego nawożenia mikro- i makroelementowego na plonowanie oraz zawartość tłuszczu w nasionach rzepaku. Influence of foliar fertilization with micro- and macroelements on yielding and fat content in seeds of oilseed rape. Fragmenta Agronomica, 36(1), 54‒66. https://doi.org/10.26374/fa.2019.36.6
  • 26. Rios J.J., Garcia-Ibañez P., Carvajal M., 2019. The use of biovesicles to improve the efficiency of Zn foliar fertilization. Colloid. Surf. B Biointerfaces 173, 899–905. https://doi.org/10.1016/j. colsurfb.2018.10.057
  • 27. Sikorska A., Gugała M., Zarzecka. K. 2020. Winter oilseed rape yield depending on foliar fertilization. Acta Scientiarum Polonorum - Agricultura, 19(1), 11–20. https://doi.org/10.37660/aspagr.2020.19.1.2.
  • 28. Sikorska A., Gugała M., Zarzecka K., Domański Ł. 2023. Effect of organic and inorganic stimulants on the content of glucosinolates in winter rape seed. Journal of Elementology 28(1), 189–198. https://doi.org/ 10.5601/jelem.2022.27.4.2344
  • 29. Siringam K., Juntawong N., Cha-Um S., Kirdmanee C. 2011. Salt stress induced ion accumulation, ion homeostasis, membrane injury and sugar contents in salt-sensitive rice (Oryza sativa L. spp. indica) roots under isoosmotic conditions. African Journal of Biotechnology, 10, 1340–1346. https://doi.org/10.5897/AJB10.1805
  • 30. Skowera B. 2014. Changes of hydrothermal conditions in the Polish area (1971−2010). Fragmenta Agronomica., 31(2), 74–87. (in Polish)
  • 31. Spalevic V., Dudic B., Ercişli S., Janmohammadi M., Sabaghnia N. 2022. Foliar spray of Si and Ti nanoparticles affected enzymatic antioxidants in rapeseed (Brassica napus L.). Notulae Botanicae Horti Agrobotanici Cluj-Napoca, 50, 4, 12859. DOI:10.15835/nbha50412859 1-13
  • 32. Szczepanek M., Wilczewski E., Grzybowski K. 2016. Response of winter oilseed rape (Brassica napus L.) on soil applied humus preparation and foliar potassium fertilizer. Acta Scientiarum Polonorum. Agricultura, 15(4), 85–94.
  • 33. Wenda-Piesik A., Hoppe S., 2018. Evaluation of hybrid and population cultivars on standard and high-input technology in winter oilseed rape. Acta Agriculturae Scandinavica, Section B Soil & Plant Science, 68, 678–689. https://doi.org/10.1080/09064710.2018.146086
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-372ccda4-f163-4eff-8624-2051179db8f6
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